Cleavage fracture model for granular bainite in simulated coarse-grained heat-affected zones of high-strength low-alloyed steels

JSME international journal. Series A, mechanics and material engineering Pub Date : 1997-04-15 DOI:10.1299/JSMEA1993.40.2_179

D. W. Tian, L. P. Karjalainen, B. Qian, X. F. Chen

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引用次数: 8

Abstract

A model of cleavage fracture in granular bainite was developed. It involves two-dimensional elastic interaction between a main crack and multiple microcracks induced by the existence of martensite-austenite (M-A) particles in front of the main crack. A factor of fracture toughness reduction due to the presence of M-A particles (f(MA)) was introduced to describe the effect of M-A particles on the stress intensity factor at the tip of the main crack. The values of f(MA) can be expressed as the inverse of the amplification coefficient of the stress intensity factor as a result from the interference between microcracks and a main crack in brittle materials. An equation was derived which describes the relationship between fracture toughness and microstructural variables, including the influence of the effective grain size as well as the average width and interspacing of M-A particles. Moreover, simple linear regression equations were used to check the validation of the present model for predicting cleavage fracture toughness in simulated coarse-grained heat-affected zones of quenched and tempered high-strength low-alloyed steels.

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高强度低合金钢粗晶热影响区粒状贝氏体解理断裂模型

建立了粒状贝氏体解理断裂模型。它涉及一个主裂纹与多个微裂纹之间的二维弹性相互作用，这些微裂纹是由主裂纹前马氏体-奥氏体(M-A)颗粒的存在引起的。引入M-A颗粒导致断裂韧性降低的因子(f(MA))来描述M-A颗粒对主裂纹尖端应力强度因子的影响。f(MA)的取值可以表示为脆性材料中由于微裂纹与主裂纹之间的干扰而产生的应力强度因子放大系数的倒数。导出了断裂韧性与有效晶粒尺寸、M-A颗粒平均宽度和间距等微观组织变量之间的关系式。此外，利用简单的线性回归方程验证了该模型在模拟调质高强度低合金钢粗晶热影响区的解理断裂韧性预测的有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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JSME international journal. Series A, mechanics and material engineering

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